230 CHAPTER 9 Global Atmospheric Changes
strategies to help various regions and sectors of society
adapt to climate warming. One of the most pressing issues
is rising sea level. People living in coastal areas could be
moved inland, away from the dangers of storm surges, al-
though the societal and economic costs would be great. An-
other extremely expensive alternative is the construction of
massive sea walls to protect coastal land. Rivers and canals
that spill into the ocean could be channeled to prevent salt-
water intrusion into fresh water and agricultural land.
We must also adapt to shifting agricultural zones.
Countries with temperate climates are evaluating semi-
tropical crops to determine the best substitutes for
traditional crops as the climate warms. Large lumber
companies are developing heat- and drought-resistant
strains of trees that will be harvested when global climate
change may be well advanced. Evaluating such problems
and finding and implementing solutions now will ease fu-
ture stresses of climate warming.
Adaptation to global climate change is under study
at several locations around the United States. One of the
problems identified in a New York City study involves its
sewer system. The waterways for storm runoff normally
close during high tides. As the sea level rises in response
to global climate change, the waterways will have to be
shut during many low tides, which will increase the risk
of flooding during storms (because excess water will not
drain away). City planners will have to rebuild the storm
runoff system or find some other way to prevent flooding.
Evaluating such problems and implementing solutions
now will ease future stresses of climate warming.
- What are greenhouse gases?
- How will climate change affect agriculture?
wildlife? - What are two examples of each of the
approaches to manage global climate
change: mitigation and adaptation?
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In the Vattenhall carbon capture and storage pilot project, coal is burned in a gasifier
1. Particulates, sulfur, and other contaminants are removed 2. After that, CO 2 is absorbed
and removed 3 ; the hot, CO 2 -free gas is then used to generate electricity, first in a
gas turbine 4 and then in a heat recovery steam generator 5. Meanwhile, the CO 2 is
piped away for storage underground 6.
Mechanical
energy
Air
Air
separator
Bottom ash Steam
Fly ash
Shift
reactor Gypsum
Hydrogen
Mechanical
energy
Sulfur
remover
Steam
Particle
remover
Gasifier
Nitrogen
Fuel
Oxygen
Electricity Electricity
Steam
condenser
Cooling
water
Water
vapor
(and
excess air)
Air
Heat
Gas turbine Heat
recovery
steam
generator
CO 2
absorber
CO 2
desorber
CO 2
1
2
3
4
5
6